SU1368925A1 - Method of determining eccentricity of conducting core of cable relative to circumference of its insulation - Google Patents

Abstract

The invention relates to a measurement technique and can be used to control the thickness of cable insulation. The purpose of the invention is to improve the accuracy of eccentricity measurement. In the immediate vicinity of the surface of the insulation, a magnetic field indicator and an isolation position sensor in the form of an electrode are placed; In this case, the current in the position sensor is equal in magnitude and opposite in sign to the current in the core. Eccentricity is determined by the difference in the magnetic fields of the currents in the core and the sensor. 2 z.p, f-ly, 1 ill. with (L

Description

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The introduction refers to the measurement of from but but out of

This technique, in particular, to methods for controlling the eccentricity of a current-carrying wire conductor relative to the outer surface of its insulation during rewinding or manufacturing, and can also be used to control the thickness of cable insulation.

The aim of the invention is to improve the accuracy of eccentricity measurement.

The drawing schematically shows a variant of the device that implements the proposed method.

A device for determining the eccentricity of the conductive core 1 of the wire relative to the outer surface 2 of its insulation comprises a device 3 for exciting the current in the conductor core, an indicator A of the magnetic field and an isolation position sensor 5 made as an electrode connected to the converter 6 one or two conductors 7 and 8 mounted on shims 9 and 10. A transducer 6 connected to an electrode is used to create a current of equal magnitude and an oppositely directed current in the conductors u passed through the conductive wire vein.

The method of determining the eccentricity of the conductive core relative to the outer surface of its insulation, mainly when it is moved during manufacture, is that the wire with the grounded conductive core 1 is pulled through the device 3 to excite the current in the conductor 1. current of the same magnitude and opposite to the current passing through the core.

When using one conductor as an electrode, the ends of the latter are connected to synchronously rotating around the axis of the wire by plugs 9 and 10. Using the two conductors arranged symmetrically along the axis of the wire as an electrode simplifies the design of the device, since no need to rotate the plugs which conductors are mounted. If there is no eccentricity, the magnetic field created by the electrode is equally and oppositely directed to the field created by the current.

the measured wire, and the magnetic field indicator captures zero deviation. If the wire is made with eccentric isolation, then the magnetic field of the conductor system with current is shifted relative to the longitudinal axis of the measured wire. The indicated displacement is fixed by the indicator 4 of the magnetic field and characterizes the value of the eccentricity of the insulation.

In this case, the electrode can be made in the form of two conductors twisted along a helical line

5 of the measured wire, which allows to improve the contact of the electrode and the surface of the measured wire, as well as to reduce the measurement error. The method tests are carried out by

Q eccentricity measurements on samples of mounting wires of the MR brand with a cross section of the conductive core in the range of 0.5-1.5 mm and insulation diameter of 2.4-3.0 mm, as well as on samples of the RF cable of the RK brand in polyethylene insulation diameter of insulation is from 2.2 mm to 6.8 mm o. Samples are drawn through an annular magnetic circuit with windings,

0 exciting current in the core in the range of 1-10 mA, the value of which is stabilized and maintained. One or two non-insulated conductors are used as an electrode. As an indicator of a magnetic field, a closed magnetic circuit with windings is used, the signal from which, after appropriate processing, is recorded with a digital F-214 voltmeter

The tests confirmed the high sensitivity of the device and the accuracy of measurement, which makes it possible to improve the quality of cable products. So when comparing the results of measuring the eccentricity of wire samples using an instrumental microscope according to GOST (reference measurement version) and using a device implementing the proposed method, it is noted that the measurement error with respect to the reference version is 1%, which is less than the measurement error when using the known way.

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Claims (1)

1. Method for determining the eccentricity of a conductive wire conductor 9P7C